### Circuit Diagram Explanation This circuit diagram features two operational amplifiers (op-amps) and a series of resistors connected in a specific configuration. #### Components and Connections: 1. **Op-Amps:** - **First Op-Amp**: - Input: 15 V connected to the non-inverting (+) terminal. - Power Supply: ±18 V provided. - Output: Connected to a 500 Ω resistor, leading to the point denoted as \( v_{o1} \). - **Second Op-Amp**: - Input: 10 V connected to the non-inverting (+) terminal. - Power Supply: ±18 V provided. - Output: Connected to a 2 kΩ and 400 Ω resistors, leading to the point denoted as \( v_{o2} \). 2. **Resistors:** - 500 Ω resistor connected to the output of the first op-amp. - 2 kΩ resistor connected between the outputs of the two op-amps. - 400 Ω resistor in series with the 2 kΩ resistor leading to the common point \( v_{o2} \). - 1 kΩ resistor connected to the ground, in series with the 2 kΩ and 400 Ω resistors. - 5 kΩ resistor connected between \( v_{o1} \) and \( v_{o2} \). #### Functionality: - The circuit utilizes two op-amps to process input voltages of 15 V and 10 V, respectively. - The power supply to each op-amp is ±18 V, allowing for amplification processes. - The resistors connected in various series/parallel arrangements control the current and voltage division within the circuit, ultimately affecting the output voltages noted as \( v_{o1} \) and \( v_{o2} \). This configuration can be used for various signal processing applications, such as amplification and filtering, commonly seen in electronic and communication systems. The op-amps serve as the active components, influencing the behavior of passive resistor networks.

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### Circuit Diagram Explanation

This circuit diagram features two operational amplifiers (op-amps) and a series of resistors connected in a specific configuration. 

#### Components and Connections:

1. **Op-Amps:**
   - **First Op-Amp**:
     - Input: 15 V connected to the non-inverting (+) terminal.
     - Power Supply: ±18 V provided.
     - Output: Connected to a 500 Ω resistor, leading to the point denoted as \( v_{o1} \).

   - **Second Op-Amp**:
     - Input: 10 V connected to the non-inverting (+) terminal.
     - Power Supply: ±18 V provided.
     - Output: Connected to a 2 kΩ and 400 Ω resistors, leading to the point denoted as \( v_{o2} \).

2. **Resistors:**
   - 500 Ω resistor connected to the output of the first op-amp.
   - 2 kΩ resistor connected between the outputs of the two op-amps.
   - 400 Ω resistor in series with the 2 kΩ resistor leading to the common point \( v_{o2} \).
   - 1 kΩ resistor connected to the ground, in series with the 2 kΩ and 400 Ω resistors.
   - 5 kΩ resistor connected between \( v_{o1} \) and \( v_{o2} \).

#### Functionality:

- The circuit utilizes two op-amps to process input voltages of 15 V and 10 V, respectively.
- The power supply to each op-amp is ±18 V, allowing for amplification processes.
- The resistors connected in various series/parallel arrangements control the current and voltage division within the circuit, ultimately affecting the output voltages noted as \( v_{o1} \) and \( v_{o2} \).

This configuration can be used for various signal processing applications, such as amplification and filtering, commonly seen in electronic and communication systems. The op-amps serve as the active components, influencing the behavior of passive resistor networks.
Transcribed Image Text:### Circuit Diagram Explanation This circuit diagram features two operational amplifiers (op-amps) and a series of resistors connected in a specific configuration. #### Components and Connections: 1. **Op-Amps:** - **First Op-Amp**: - Input: 15 V connected to the non-inverting (+) terminal. - Power Supply: ±18 V provided. - Output: Connected to a 500 Ω resistor, leading to the point denoted as \( v_{o1} \). - **Second Op-Amp**: - Input: 10 V connected to the non-inverting (+) terminal. - Power Supply: ±18 V provided. - Output: Connected to a 2 kΩ and 400 Ω resistors, leading to the point denoted as \( v_{o2} \). 2. **Resistors:** - 500 Ω resistor connected to the output of the first op-amp. - 2 kΩ resistor connected between the outputs of the two op-amps. - 400 Ω resistor in series with the 2 kΩ resistor leading to the common point \( v_{o2} \). - 1 kΩ resistor connected to the ground, in series with the 2 kΩ and 400 Ω resistors. - 5 kΩ resistor connected between \( v_{o1} \) and \( v_{o2} \). #### Functionality: - The circuit utilizes two op-amps to process input voltages of 15 V and 10 V, respectively. - The power supply to each op-amp is ±18 V, allowing for amplification processes. - The resistors connected in various series/parallel arrangements control the current and voltage division within the circuit, ultimately affecting the output voltages noted as \( v_{o1} \) and \( v_{o2} \). This configuration can be used for various signal processing applications, such as amplification and filtering, commonly seen in electronic and communication systems. The op-amps serve as the active components, influencing the behavior of passive resistor networks.
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